How To Make 220V Battery at home | 12v battery sy darict 220v battery bnay
Summary
TLDRIn diesem Video demonstriert der Sprecher, wie man aus einer 12-Volt-Batterie eine 220-Volt-Batterie aufbaut, die ausreichend Energie liefert, um Haushaltsgeräte ohne UPS oder Inverter betreiben zu können, mit Ausnahme von zwei Geräten. Er erklärt, wie man 18.650 Zellen derselben Marke in Reihe anschließt, um die gewünschte Spannung zu erreichen, und betont die Bedeutung der Zellüberwachung und -balancierung mit einem BMS (Battery Management System). Anschließend zeigt er das Aufladen und Entladen der Batterie und wie man sie absichert, um Überladung und -entladung zu vermeiden. Zuletzt testet er die Batterie mit verschiedenen Geräten, um zu zeigen, dass sie Alltagsgeräte wie einen Mühlstein oder ein Energiesparlampen betreiben kann, wobei er darauf hinweist, dass bestimmte Geräte wie Wasserpumpen und alte Kühlschränke nicht direkt an diese Batterie angeschlossen werden sollten.
Takeaways
- 🔋 Eine 220-Volt-Gleichstrombatterie kann aus einer 12-Watt-Batterie erstellt werden, um Haushaltsgeräte ohne UPS oder Wechselrichter zu betreiben, mit Ausnahme von zwei Geräten.
- 🛠️ Die Batterie wird aus 55 Zellen mit je 3,7 Volt hergestellt, um eine Gesamtspannung von 231 Volt zu erreichen.
- 🔌 Um die Zellen in Reihe zu schalten, müssen die Plus- und Minus-Polen der Zellen entsprechend aneinander gekoppelt werden.
- 🔗 Eine BMS (Battery Management System) wird verwendet, um Überladung und Überentladung zu verhindern und um die Zellen zu balancieren.
- 🛡️ Vor dem Anschluss an das Haushaltsnetz sollte eine Schutzvorrichtung installiert werden, um die Sicherheit zu gewährleisten.
- 🔄 Zum Laden der Batterie wird ein einfacher Brückenschaltkreis mit Dioden und einem Kondensator verwendet.
- 📶 Ein DC-Messgerät kann verwendet werden, um den Ladezustand der Batterie zu überwachen, indem man die Spannung misst.
- 🚫 Zwei Geräte, die nicht mit der Batterie betrieben werden können, sind ein Wasserpumpe-Motor und ein alter Kühlschrank.
- 🔧 Andere Haushaltsgeräte, einschließlich Glühbirnen und einem Mühlstein, können ohne Probleme mit der Batterie betrieben werden.
- ⚙️ Die Batterie kann für eine Reihe von Anwendungen verwendet werden, solange sie nicht zu leistungsintensiv sind.
- 🔆 Die Batterie ist für den Haushalt einsetzbar, vorausgesetzt, man kennt sich mit dem Aufbau und der Wartung von Batterien aus.
- ✋ Bei der Arbeit mit der Batterie und dem Aufbau des Systems muss Vorsicht walten, um Stromschläge zu vermeiden.
Q & A
Welche Art von Batterie wird in dem Skript verwendet?
-Es wird eine 220-Volt-Gleichstrombatterie verwendet, die Strom generieren kann.
Was ist die Leistung der verwendeten Geräte, die mit der Batterie betrieben werden?
-Es wird ein Gerät mit 850 Watt erwähnt, das alles betreiben kann, außer für zwei besondere Dinge.
Welche Art von Schutz wird für die Batterie benötigt?
-Es wird ein BMS (Battery Management System) verwendet, um Überladung und Überentladung zu verhindern und um die Zellen zu balancieren.
Wie viele Zellen werden benötigt, um die gewünszte Spannung zu erreichen?
-Insgesamt werden 55 Zellen in Reihe geschaltet, um 231 Volt zu erzeugen.
Wie wird die Batterie aufgeladen?
-Zur Aufladung wird ein Brückenschaltkreis mit Dioden und einem Kondensator verwendet, der an die Stromversorgung angeschlossen wird.
Was sind die beiden Dinge, die nicht mit der Batterie betrieben werden können?
-Es werden ein Wasserkocher und ein altes Kühlschrank als Beispiele für Geräte genannt, die nicht betrieben werden können.
Wie wird die Ladespannung der Batterie gemessen?
-Es wird ein DC-Messgerät verwendet, das eine Spannung von bis zu 100 Volt messen kann. Bei 9 Volt ist die Batterie vollständig entladen und bei 12,6 Volt ist sie vollständig geladen.
Welche Sicherheitsvorkehrungen werden während des Zusammenbaus der Batterie getroffen?
-Es wird empfohlen, beim Verbinden der Zellen Vorsicht walten zu lassen und die Hände nicht gleichzeitig den Plus- und Minuspolen zu berühren, um Stromstöße zu vermeiden.
Wie wird die Stromversorgung für das Gerät bereitgestellt?
-Es wird ein Schaltkreis mit einem Schalter und einer Steckdose installiert, die an die Batterie angeschlossen wird.
Was ist der Zweck des Energiesparmoduls im Skript?
-Es wird ein Energiesparmodul von 18 Watt erwähnt, das betrieben werden kann, um die Effizienz zu demonstrieren.
Welche Art von Last kann die Batterie betreiben?
-Die Batterie kann einen Großteil der Haushaltsgeräte betreiben, einschließlich einer 850-Watt-Mühle und einer 150-Watt-Beleuchtung.
Outlines
🔌 Einrichtung einer 220-Volt-Batterie
In diesem Absatz wird beschrieben, wie aus einer 220-Volt-Batterie Elektrizität erzeugt werden kann. Der Sprecher, Muhammad Haleem, präsentiert eine 850-Watt-Batterie, die für den Haushalt genutzt werden kann, ohne einen Uninterruptible Power Supply (UPS) oder Inverter für die meisten Geräte zu benötigen. Er erklärt die Verwendung von 18.650 Zellen, um eine 231-Volt-Batterie zu erstellen, und wie man diese in Reihe anschließt. Außerdem wird die Bedeutung der Gleichheit der Zellvoltage betont, um ein funktionierendes System zu gewährleisten.
🔋 Schutz und Ladevorrichtung der Batterie
Dieser Absatz konzentriert sich auf die Errichtung eines Schutzmechanismus für die Batterie und die Ladetechnik. Es wird ein BMS (Battery Management System) verwendet, um Überladung und -entladung zu verhindern. Der Sprecher zeigt, wie man den BMS mit den Zellen verbindet und erklärt die Bedeutung der richtigen Verbindung der Plus- und Minus-Pole. Anschließend wird ein einfaches Ladesystem vorgestellt, das aus einem Diodenbrückenschaltkreis und einem Kondensator besteht, um die Batterie aufzuladen.
🚀 Testen der Batterie mit verschiedenen Lasten
In diesem Teil des Skripts wird die Batterie mit verschiedenen Geräten getestet, um ihre Fähigkeiten zu demonstrieren. Der Sprecher stellt einen 18-Watt-Energiesparstecker, einen 150-Watt-Großleuchten und einen 850-Watt-Mixer dar, um zu zeigen, dass die Batterie diese Geräte problemlos betreiben kann. Er betont, dass die Batterie für die meisten Haushaltsgeräte geeignet ist, jedoch nicht für leere induktive Lasten wie Wassermotoren geeignet ist. Der Test zeigt, dass die Batterie auch beim Laden korrekt funktioniert und beim Aufladen ein Signal für den Ladezustand anzeigt.
📢 Abschließende Bemerkungen und Community-Interaktion
Zum Abschluss des Videos werden einige letzte Bemerkungen gemacht und die Zuschauer aufgefordert, Fragen zu stellen, wenn sie etwas über die Batterie nicht verstehen oder mehr darüber wissen möchten. Der Sprecher bittet die Zuschauer, das Video zu liken, zu teilen und das Kanalabonnement zu aktivieren, um weitere nützliche Videos zu erhalten. Er verspricht, in Zukunft weitere Informationen und Rezensionen im Vlog-Channel bereitzustellen.
Mindmap
Keywords
💡Batterie
💡Watt
💡Wechselstrom (AC)
💡Gleichstrom (DC)
💡Spannung
💡Zellen in Reihe
💡BMS (Battery Management System)
💡Ladekreis
💡Entladeschutz
💡Wechselrichter
💡Löten
Highlights
Erstellung einer 220-Volt-Gleichstrombatterie, die aus einer 12-Watt-Batterie direkt angetrieben wird.
Verwendung einer 850-Watt-Einheit, die ausreicht, um alle Geräte zu betreiben.
Präsentation einer Energiesparfunktion und der Möglichkeit, ohne UPS und Inverter bestimmte Geräte zu betreiben.
Auswahl von 18650-Zellen von der gleichen Firma, um Konsistenz und Kompatibilität zu gewährleisten.
Die Notwendigkeit, die Zellen in Reihe zu verbinden, um die gewünschte Akku-Spannung zu erreichen.
Die Verwendung eines BMS (Battery Management System) zur Überwachung und zum Schutz vor Überladung und -entladung.
Das Aufbauen eines Ladeschaltkreises mit einem Diode und einem Kondensator für die sichere Aufladung der Batterie.
Die Verwendung eines Spannungsmessgeräts, um den Lade- und Entladezustand der Batterie zu überwachen.
Die Möglichkeit, die Batterie mit einem Wechselstrom-Netz (WAPDA) aufzuladen.
Das Einrichten eines Schutzmechanismus, der die Batterie bei voller Ladung und Entladung abschaltet.
Die Verwendung von Isolationsmaterial, um Kurzschlüsse und elektrische Stöße zu vermeiden.
Das Anschließen der Batterie an einen Ladeanschluss und die Integration eines Ladeversuchs.
Das Ausführen eines Lastentests mit verschiedenen Geräten, um die Leistungsfähigkeit der Batterie zu demonstrieren.
Die Betriebsfähigkeit eines 850-Watt-Mühlenmotors direkt von der Batterie.
Die Einschränkung, dass manche Geräte wie Wasserpumpen und alte Kühlschränke nicht direkt von der Batterie betrieben werden können.
Die Möglichkeit, die vollständige Anweisung und alle benötigten Komponenten im Videobeschreibungsbereich zu finden.
Die Empfehlung, Fragen zur Batterie und Anwendungen in den Kommentaren zu stellen und für weitere Informationen den vlogen Channel zu besuchen.
Transcripts
So friends, this is a two hundred and twenty volt direct battery from which you can generate electricity
I have an eight hundred and fifty watt that can run everything
Grander, let me show you this live
wire and here I plug it into the socket and here
From the button I have already turned on from here I turn on
And it is an energy saver. From here I turn you guys on
I show Now you guys with electricity in this Wala Grander
I show it so people don't say it's twelve oat grander. so it
Here is the same grinder and this is the electrical board
So let's start making it. Peace be upon you, friends
I am Muhammad Haleem and you are watching Haleem t-on friends today
In the video, we direct from a twelve-watt battery to a two-hundred-and-twenty-foot battery
You will make all the things at home without any UPS
You will be able to run without inverter except for two things, so which ones?
In the video, I will walk you through all the things and the whole method
I will tell you this method, maybe someone on YouTube first
If you haven't told me, let's start this video and you
people just like this video and must share with your friends
Share this video so that everyone can benefit from it
If we start, first of all we have this battery
to open and it is not necessary at all. that you with it
It is mandatory to use battery if you don't have battery
this battery we use as a record we empty it
The rest will be used for cover, it is not necessary at all.
If you don't have a battery, you can't build this thing
You can make this thing with any other cover, this is guys battery
. If there is a plate, first cut the partition inside it
If you take it, you have completely cleaned the inside of the battery
And I have cut all the partitions that are there and now
It is time to make it direct two hundred and twenty feet, so for that
We need 18,650 cells, so you guys too
Can use but try to make sure they are all from the same company
And yes, I have already checked it with the meter
Everything that exists is around one another, something is slightly above and below it
doesn't matter that much but if you use more bottom up
If there are, then the system you have will become useless
we need a total of fifty-five cells to make our two hundred and thirty-one volts.
It will be four decimal two volt which is one sale and which is two hundred
Thirty one volt will be then you guys if you calculated the area
If you have two hundred and twenty volts in your area, then you
Fifty- Two or fifty-one cells can also be placed in series, and if two hundred
If it comes above thirty, then you use fifty-five cells to get two hundred and thirty-one
Volt is the best battery that can be made for your home
All electric things will work, so here are all the cells
People have to check first and you before making it
If you want to put charge first, you can see
That the cell is all my charges and you guys also charged four cells
What is to be done is four index two volts in front of all of you
If so, you guys have to charge all the cells first
To do I have charged if any cell between you
If it gets discharged then there is no point in making it
Here I will put fifty-five cells in series in series
What is the method of applying that one wire plus the minus of the other cell?
has to be connected to then the other wire minus the plus of this cell
It has to be connected to the third wire minus its plus
If necessary, put it on the line and one of its tonics
By putting it in the middle, it is called series connection
If you want to put it in a series, then here I will give it from here
I will show you guys one by one line of nine series, so here
We have to connect these two from above
This is to connect the two. This is to connect the two and from below we
From where it is connected from above, give it from below
to connect then these two are connected from top to bottom
These two have to be connected, so these two are connected from above
It's two from the bottom so this way it becomes our series connection
That is how we used to do it and this is our new cell
If it will be in the series, friends, this is a series of our no-slow
It is ready and so is all nine nine cells in what is
I will prepare the series as soon as possible, then you guys
Let me tell you how to make the rest of the connections, so guys one two three four
Five six six lire I have nine nine silks which are in the series together
Now we have connected all these in series
It is simple to do, minus the two layers
And plus we have to connect and the bottom of these two waves here
We have to connect plus and minus from the opposite side
Then from Here we added the plus and minus of both of them from above
We have to connect and then we plus from the bottom of these two waves
We have to connect minus and then this one which is plus minus
We have to connect and we have this side and that side
these two will be our final output
When you have to connect all these in series then you
People have to be very careful with both of your hands
Do not touch. It will give you people a current like electricity.
So if you have a hand over one, it will not give you current
But if you get your hands on both, then it will be very difficult for you
Can give a big shock. So let's connect it quickly
I do. So before I connect them all
I put tape on top. I connect it in series
I start. So what is quite dangerous work starts from here
goes because whatever is after it also has to give current
So this one side has been connected, now we have done it on the other side
And we have to connect this side, so guys here
Till now our system has been prepared. This is our two hundred
The twenty volt battery is ready and here you are
I also make people check the voltage. So this is our plus
Went and it got minus. Guys, what is two hundred and twenty nine volts?
Bro, you can run anything on it. But until then
Be patient while I get it all ready. Now a lot on that
Things remain. How to charge it? Discharge it
How to do it? All these things that are still remain. before you
What we have to do with it is to put protection in place
What I have here is a twelve volt forty mpr BM
S is I will use it and I use it like this
I will do that I have to put it with three cells in the last
So when those three cells are full of us, then these things are with us.
If there will be cut-ups, then all our cells will be destroyed
There will be overcharge and no overdischarge when its voltage is up to three voltages
If they come, this BMS will do the cut-up and also the discharge
There will be no and no overcharges and besides this
You can also use this balance cell for balancing
It's for sale, so you can ask for more and more
If you put it together, it will balance all your cells
So I did not start balancing because I have what is sold
If it is not used, it has some less and more MPs
So it may take a lot of time to balance
How to apply for protection in what is first
Let me tell you what happens after that with electricity
I will tell you how to direct charge, so you guys can do it.
What is protection is applied first before applying what is
I put the plus wire next to it and then the jo
Yes, we will put the minus wire because ours is BMS
In the minus, it is in the plus, which is its direct
Is
So this is done brother, our positive wire and what is now
We have to fit it in the box like this, so the last three
We have to connect the BMS with the existing cell first
I will show you guys the Jo Hai diagram of the last three cells
I give this is minus this is plus so this is this minus of the cell and this
This is the plus of the cell from here is the minus of this cell and this is this cell
The positive one of our battery from here is positive
points and this is the negative points of the battery
On the negative points, you guys put the BMS like this
Lena has to and this which is BMS's volte you with it
to connect and four decimal two volt you have here with it.
to connect and eight decimal four volt which you have with it
You have to connect and twelve decimal six volt
If you want to connect with this BMS then you have to keep it
Exactly the same you guys nailed it with these four points
Manual which is to connect and any other in it
There is no great science, then what we have here is this positive
If the points are done, the negative points are BMS here
If we take it from the battery, it will be our protection
It will cut off the full battery when discharged and when the battery is full
After charging, cut off the BMS battery
will So these are our three sup which are the whole battery
It will cut off the connection. So let's connect it quickly
I do. Just like I told you guys
As I have installed BMS, now these are all cells
These positive points are an output of our points
is and here we have an output points which is from the minus
If you take it, this is our BMS which will be protected whenever
And if there is a discharge, the output from here will stop
So our cells will not be damaged by this, so now I am
I will put the second wire from here, so this is our two wires
It will be used for electricity, so let's go here quickly
If I solder quickly, then friends, after BMS, ours
It has two wires attached to it, this is minus and this is plus, so B
Because with MS you guys don't have to plug in the plus wire
From here you can get only twelve volt output bm
The empty minus of S is because we put it on the minus
Protection does cut-off so friends here even our Joe
The battery is complete, so now let's start charging it
I tell you guys about what you guys told me
How to charge, first of all, put what is in the box
If I take it, the method of charging is absolutely sample
First of all, you guys have to build a bridge and the bridge is you
People have to make something like this, it's visible to you guys
This is diode four and its number is four zero zero seven
So you guys have to connect it in some way
The white strip of the divot is to be done on one side and two divots
If the black strip is to be done on one side, then the white strip will be plus
The black one will be minus, it is plus and minus, it is straight
To be used for charging your battery and it is two
We have to put it with WAPDA but by putting it with WAPDA
First we have to add another thing to it with WAPDA
A ten uF with what we have from here to install
Ten micro-parents have to use it and we have serialized it
I have to use it so here I put it with a wire
So now we have this wire, we will connect it to the electricity
We will connect one of these wires and these two wires are for the battery
If we connect it, it will charge our battery
Very simple is the charging system and what is from ten is from fifty
The charging will be above sixty watts and if you charge it quickly
if you want to do it, then if you connect the base, it will charge quickly
Let me fix it quickly and let you guys know
So this is the lid, I already have a button here
And a socket has been installed and these two wires are connected to it
I have to connect the red wire to the button
And when I have to connect the black wire to the circuit
From here we will turn on then our socket will be turned on and so on
On the other side, I have put a meter in it here.
I have attached a button here, so these wires
I'll connect it to DMS so it's us
Twelve old batteries will be known as our entire battery
How much have I charged? When it comes to nine volts, at nine volts
Our battery will be completely empty and at 12.6 volts
the battery will be completely full. So in this way we know from this meter
its okay. By the way, if you have up to 250 meters, you
You can also check the voltage of the entire battery
The DC meter I have has a range of up to a hundred volts
That's why it doesn't tell us the voltage of the whole battery
can. So that's why I only have twelve volts for this game
I will connect it with So friends, apart from that, you like this
You can also use the bridge, so I use this one
Because inside what it is, these wires will bump into each other and short
If so, I put this one in what it is. So you
People don't worry, all this link is in the description
I will give So you can easily find all the things you need
will So friends, I have made the bridge connection here
there is an electric wire attached to it. And from
The second wire that comes is connected to the bridge
From the bridge we have two output wires, one is plus and
There is a minus that you guys have on the side before the bridge
What is in the latter side will not work. So here
What do I do that we have minus and plus wires?
Connect it directly to the battery wires
I take So this is our charging system completely ready
. So what is here I would connect with plus plus
I am And what is minus I connect with minus. So
Now sample we put this plus wire in the button
and we have to connect the minus wire in the circuit. So
the system we have will be fully developed. So let's go too
I quickly put it on. So friends, I fit all the things
And here I have connected the button and the circuit
Has been installed. So now what is finally closed and here
On this side, I have also installed a charging circuit in it
And this stone has also been installed. To do so on both sides
I have installed two stones and also made holes
If there are these things you can turn it off in your own way
If there are, I will test what is after that and you guys
I will show you the 12.6 volt of the current battery
It's full so we'll know When it gets to nine volts
That our entire battery is drained because it is
It is connected in series with other things so let's go now finally
Let's test it and I told you guys that in it
Two things will not work, that is what two things are, one is water
Walla motor and one is fridge old fan above it you ACDC
Fans can also be operated from direct AC points, but not this one
On top of that you can run everything else and the DC inverter
The old fridge can also work, that is, not the old water fridge
I can show you people by charging once.
Here I have installed the power charging socket on it
I show you people how much white is on the device
Yes, it is being charged, so you can see it here
Disconnected. See you can see. So now this
The disconnect happened because our battery is full.
when the battery is low, then it will show what is charging. So one
Sometimes I take it out and put it back in. So you guys can see
There are forty-three wards here, which are showing forty-two
After forty-three, you guys will disconnect again after a while
If you can see, when this trip is full, then it will be full
If there is, it will be automatic disconnection, so BMS
This is the first of what is there, and the brother has become the best thing
Let me do a little load check on it for you guys
So, friends, finally, let's start testing on it now
So guys, here we have an energy saver of a company that is
eighteen watts and I put it in front of you guys
It has been installed, what is the matter, Brother? This is done brother eighteen
Watts of energy Sievert and now it comes to us one hundred and fifty
watt's big light and its video calling description to you
I will find what I made in a video and this very
If it is bigger, I would have put it in front of you
I am Look what's up brother. So it's such a big light
That is not even coming in the camera. And here we have a hundred watts
which normally everyone knows. And it's done
brother sir Here is the 850 Watt 850 Watt Grinder
Yes bro, the grinder will run it as if there is no electricity
will find its button is directly not seen here from here.
And the grinder button is already on
What is the matter, brother, look at this
So let me tell you one thing that it is one and a half ampere
If there is an ampere battery, you can run a grinder on it
The reason you shouldn't run it is because it loads on top of it
It gets bigger if you make more amps than six
1 ampere or 7 ampere then on top of that you grander bay
Run with worry and by the way it's the best thing on top of that
Cannot run empty inductive load except for household
Everything that is duty done will run everything that is and it is complete
If you have any question other than this, friends
About the battery and if you want to plan on it
Launch it and show it in the comment box below
InshaAllah, you can do a full review on the vlog channel
Today's video will tell people how this battery works
It's quite long, I hope you guys like it
If you like the video then like and share and subscribe to the channel
Subscribe and see you inshAllah with the video till then
I will take care of you very much and remember you in my prayers
Hafiz
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